Published May 27, 2020 | Version 2
Physical object Open

Headplate and light-blocking sleeve for 2P imaging

  • 1. 3Dneuro
  • 2. Ernst Strüngmann Institute for Neuroscience
  • 3. Radboud University Nijmegen



  • 1. Donders Institute for Brain, Cognition and Behaviour, Radboud University Nijmegen


This system was designed to provide simple and reliable light shielding for 2-photon imaging in awake head-fixed mice (running on a 3D-treadmill with visual stimulation in our case). With this in mind, we optimized for the following criteria:

  1. No hand-made or improvised components that can add variability to the data quality of each experiment – so no putty, wax or tape.
  2. Simple connection between the animal’s headplate and the light shielding around the microscope lens, to prevent having to work close to the animal’s head, which can stress animals and impact task performance.
  3. Quick fastening mechanism (< 1 minute). Animals only have a limited time span for motivated, focused performance. We want to lose as little as possible of that time on setting up the imaging. Ideally, the time between putting the animal on the treadmill and beginning the first imaging sequence should be well below 10 minutes.
  4. Easy to ensure watertight seal with the skull to prevent leakage of fluid during imaging.
  5. Cheap and easy to replace/tweak if necessary.

We came up with a two-part solution. One is a circular headplate with a ring that rises up conically to fit around the microscope lens while providing a fluid reservoir for imaging with water-immersed objectives. The headplate has two connectors on the side that can be used for stable head fixation (similar concept to Poort et al. 2015 NeuronHavenith et al. 2019 Scientific Reports). It is easy to implant on the skull, and then remains stable and watertight for months.

The second component is a light-absorbing conical sleeve which was designed to fit with an Olympus 20x objective, and can be lowered below the rim of the implanted headplate once the animal is head-fixed under the microscope. Since the sleeve is designed to fit snugly underneath the rim of the headplate’s cone, it doesn’t require any extra fastening mechanisms apart from lowering it past the headplate’s rim, making it extremely quick and easy to use. In our experience, lowering the sleeve all the way to the base of the headplate eliminates all stray light in recordings.

The files are also available as a git repository at The version uploaded here is equivalent to commit aa3a4d140f40d3f49139953be25a3a6444d229a7.

Please note: if you downloaded v1 earlier, make sure the dimensions of the design files (STL, STEP) are still correct for your use case. 



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